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Wednesday, 13 April 2016

Common Rail Direct Injection (CRDI)- Diesel

Today’s diesel engines are cleaner, more economical and more fuel efficient than ever before. Common Rail Direct Injection (CRDI) is the most advanced technology in diesel fuel injection. The name implies that the injection takes place directly inside the combustion chamber.

Difference between CRDI and an ordinary diesel injection system:

The difference between an ordinary diesel injection system and CRDI is that in an ordinary system, the fuel has to be pressurized for each injection cycle. In the case of CRDI, a common rail is installed which maintains the pressure of the fuel throughout its entire length. The Electronic Control Unit (ECU) regulates the fuel pressure at different speeds and also modulates the fuel supply required based on the operating conditions. Therefore, with the help of an ECU, fuel compression and injection are made independent of each other. This feature helps in lowering emissions and increasing fuel economy.

History of CRDI:

Robert Huber of Switzerland developed the first prototype of CRDI in 1960. Denso Corporation of Japan developed the common rail system for heavy duty vehicles and it was successfully installed in Hino Rising truck in 1995.

The modern CRDI which is controlled extensively by ECU have electrically controlled injectors replacing the mechanical ones. This system was prototyped in 1990s by Fiat, Magneti Marelli and Elasis. But the German company Bosch GmbH acquired the design for completion and mass production. Bosch ultimately bought the license from Fiat. The first passenger car to have a CRDI was Alfa Romeo 156 2.4 JTD in 1997.

Working of CRDI:

The common rail system is equipped with a high pressure pump which can pressurize the fuel up to 2000 bar. The pressurized fuel is then sent to a common rail which maintains the pressure throughout its entire length. The common rail is fitted with a rail pressure sensor to detect the pressure inside the rail. A pressure limiter valve is also provided in common rail. Controlled via the ECU, the pressure limiter valve limits the pressure in the rail, while at the same time suppressing pressure fluctuations.



In a CRDI, the fuel quantity and timing of injection is governed by the ECU or microprocessor. The common rail supplies fuel to each injector based on the firing order of the engine. The piezoelectric injectors are controlled by the ECU.

To lower the engine noise and vibration, the injector can be controlled to inject a small amount of fuel just before the main injection. This is known as ‘pilot’ injection. The pilot injection is followed by main injection. Some advanced CRDI injectors can achieve multiple injections (5 to 10) during main injection. This helps in lowering noise and emissions. The main injection is usually followed by a post injection.

The start of injection occurs at a pre-determined pressure and also ends at the same pre-determined pressure. Therefore, the pressure is maintained throughout the injection process, thus forming a square injection rate.



        

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